个人简历

郑瑞晓，河北南宫人，北京航空航天大学材料科学与工程学院副教授。
2005年9月考入北京航空航天大学材料科学与工程学院，2009年免试推荐硕博连读，2015年7月获北京航空航天大学工学博士学位。2015年8月赴日本京都大学材料工学系工作，任特别研究员（博士后），主要从事块体纳米金属材料的制备及其强韧性研究。2018年9月加入北京航空航天大学材料科学与工程学院，任副教授。

教育经历

[1] 2005.9-2009.7
北京航空航天大学 | 材料科学与工程 | 工学学士学位 | 大学本科毕业
[2] 2009.9-2015.7
北京航空航天大学 | 材料科学与工程 | 工学博士学位 | 博士研究生毕业
[3] 2012.10-2013.1
日本立命馆大学 （短期访学）
[4] 2014.3-2015.3
日本京都大学（国家公派联合培养）

工作经历

[1] 2018.9-至今
北京航空航天大学 |材料科学与工程学院 |副教授

[2] 2015.8-2018.9
日本京都大学 |材料工学系 |特别研究员

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研究领域

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块体纳米金属材料（Bulk Nanostructured Metals, BNM）
金属基复合材料（Metal Matrix Composites，MMC）
金属材料强韧性（Strength and Ductility）
剧烈塑性变形 （Severe Plastic Deformation，SPD）
粉末冶金（Powder Metallurgy，PM）

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开授课程

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科研项目

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[1] 块体纳米金属材料-2021/12/31
[2] 超细晶镁及镁合金的再结晶组织调控和超常室温塑性行为研究-2022/12/31

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论文

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[1] R. Zheng*, X. Hao, Y. Yuan, Z. Wang, K. Ameyama, C. Ma*, Effect of high volume fraction of B4C particles on the microstructure and mechanical properties of aluminum alloy based composites, Journal of Alloys and Compounds 576 (2013) 291-298.
[2] R. Zheng*, H. Yang, T. Liu, K. Ameyama, C. Ma*, Microstructure and mechanical properties of aluminum alloy matrix composites reinforced with Fe-based metallic glass particles, Materials & Design 53 (2014) 512-518.
[3] R. Zheng*, F. Ma, Y. Zhang, C. Ma, Microstructure and mechanical properties of fine structured B4C/2024 Al composites with high B4C content, Advanced Engineering Materials 19 (2017)**.
[4] R. Zheng*, F. Ma, W. Xiao, K. Ameyama, C. Ma*, Achieving enhanced strength in ultrafine lamellar structured Al2024 alloy via mechanical milling and spark plasma sintering, Materials Science and Engineering A 687 (2017) 155-163.
[5] R. Zheng*, T. Bhattacharjee, A. Shibata, T. Sasaki, K. Hono, M. Joshi, N. Tsuji, Simultaneously enhanced strength and ductility of Mg-Zn-Zr-Ca alloy with fully recrystallized ultrafine grained structures, Scripta Materialia 131 (2017) 1-5. (Rank 3rd Most Downloaded Paper)
[6] C. Xu, R. Zheng*, S. Hanada, W. Xiao*, C. Ma*, Effect of hot extrusion and subsequent T6 treatment on the microstructure evolution and tensile properties of an Al-6Si-2Cu-0.5Mg alloy, Materials Science and Engineering A 710 (2018) 102–110.
[7] T. Hu, W. Xiao*, F. Wang, Y. Li, S. Lyu, R. Zheng*, C. Ma, Improving tensile properties of Mg-Sn-Zn magnesium alloy sheets using pre-tension and ageing treatment, Journal of Alloys and Compounds 735 (2018) 1494-1504.
[8] W. Gong*, K. Aizawa, S. Harjo, R. Zheng, T. Kawasaki, J. Abe, T. Kamiyama, N. Tsuji, Deformation behavior of as-cast and as-extruded Mg97Zn1Y2 alloys during compression, as tracked by in situ neutron diffraction, International Journal of Plasticity, 111 (2018) 288-306.
[9] S. Gao*, Y. Bai, R. Zheng, Y. Tian, W. Mao, A. Shibata, N. Tsuji, Mechanism of huge Lüders-type deformation in ultrafine grained austenitic stainless steel, Scripta Materialia, 159 (2019) 28-32.
[10] S. Lyu, W. Xiao*, G. Li, R. Zheng*, C. Ma, Achieving enhanced mechanical properties in Mg-Y-Sm-Zr alloy by altering precipitation behaviors through Zn addition, Materials Science and Engineering A 746 (2019) 179-186.
[11] S. Lyu, R. Zheng*, W. Xiao*, Y. Huang, S. Gavras, N. Hort, G. Li, C. Ma, Abnormal extrusion texture and reversed yield asymmetry in a Mg–Y-Sm-Zn-Zr alloy, Materials Science and Engineering A 760 (2019) 426-430.
[12] R. Zheng*, G. Li, Z. Zhang, Y. Zhang, S. Yue, X. Chen, K. Ameyama, C. Ma, Manipulating the powder size to achieve enhanced strength and ductility in harmonic structured Al alloy. Materials Research Letters 7 (2019) 217-224.
[13] R. Zheng*, M. Liu, Z. Zhang, K. Ameyama, C. Ma, Towards strength-ductility synergy through hierarchical microstructure design in an austenitic stainless steel, Scripta Materialia 169 (2019) 76-81.
[14] R. Zheng*, T. Bhattacharjee, S. Gao, W. Gong, A. Shibata, T. Sasaki, K. Hono, N. Tsuji*, Change of deformation mechanisms leading to high strength and large ductility in Mg-Zn-Zr-Ca alloy with fully recrystallized ultrafne grained microstructures, Scientific Reports DOI: 10.1038/s41598-019-48271-5. (*Denotes corresponding author)
[15] R. Zheng*, Y. Sun, K. Ameyama, C. Ma*, Optimizing the strength and ductility of spark plasma sintered Al 2024 alloy by conventional thermo-mechanical treatment, Materials Science and Engineering A 590 (2014) 147-152.
[16] R. Zheng*, J. Chen, Y. Zhang, K. Ameyama, C. Ma*, Fabrication and characterization of hybrid structured Al alloy matrix composites reinforced by high volume fraction of B4C particles, Materials Science and Engineering A 601 (2014) 20-28.
[17] R. Zheng, Y. Sun, W. Xiao, K. Ameyama, C. Ma*, Nanostructured Al87Ni8.5Ce3Fe1Cu0.5 alloy prepared by mechanical milling spark plasma sintering and hot extrusion, Materials Science and Engineering A 606 (2014) 426-433.
[18] R. Zheng*, C. Ma, Novel fabrication of bulk fine-grained Al-Cu-Mg alloy with superior mechanical properties. Advanced Engineering Materials 18 (2016) 1027-1035.
[19] R. Zheng, J. Chen, W. Xiao*, C. Ma, Microstructure and tensile properties of nanocrystalline (FeNiCoCu)1-xTixAlx high entropy alloys processed by high pressure torsion, Intermetallics 74 (2016) 38-45.
[20] R. Zheng, Z. Zhang*, M. Nakatani, M. Ota, X. Chen, C. Ma, K. Ameyama, Enhanced ductility in harmonic structure designed SUS316L produced by high energy ball milling and hot isostatic sintering, Materials Science and Engineering A 674 (2016) 212-220.

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荣誉及奖励

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